#include "cppdefs.h"
#ifdef ADJOINT
      SUBROUTINE ad_get_data (ng)
!
!svn $Id$
!================================================== Hernan G. Arango ===
!  Copyright (c) 2002-2018 The ROMS/TOMS Group                         !
!    Licensed under a MIT/X style license                              !
!    See License_ROMS.txt                                              !
!=======================================================================
!                                                                      !
!  This routine reads in forcing, climatology and other data from      !
!  NetCDF files.  If there is more than one time-record,  data is      !
!  loaded into global  two-time  record arrays. The interpolation      !
!  is carried elsewhere.                                               !
!                                                                      !
!  Currently, this routine is only executed in serial mode by the      !
!  main thread.                                                        !
!                                                                      !
!=======================================================================
!
      USE mod_param
      USE mod_boundary
# if defined FORWARD_READ && defined SOLVE3D
      USE mod_coupling
# endif
      USE mod_clima
      USE mod_forces
# ifdef SENSITIVITY_4DVAR
      USE mod_fourdvar
# endif
      USE mod_grid
      USE mod_iounits
      USE mod_mixing
      USE mod_ncparam
# ifdef FORWARD_READ
      USE mod_ocean
# endif
      USE mod_scalars
      USE mod_sources
      USE mod_stepping
!
      USE strings_mod, ONLY : FoundError
!
      implicit none
!
!  Imported variable declarations.
!
      integer, intent(in) :: ng
!
!  Local variable declarations.
!
      logical, dimension(3) :: update =                                 &
     &         (/ .FALSE., .FALSE., .FALSE. /)

      integer :: ILB, IUB, JLB, JUB
      integer :: LBi, UBi, LBj, UBj
      integer :: i, ic, my_tile

# ifdef FORWARD_MIXING
      real(r8) :: scale
# endif
!
!  Lower and upper bounds for nontiled (global values) boundary arrays.
!
      my_tile=-1                           ! for global values
      ILB=BOUNDS(ng)%LBi(my_tile)
      IUB=BOUNDS(ng)%UBi(my_tile)
      JLB=BOUNDS(ng)%LBj(my_tile)
      JUB=BOUNDS(ng)%UBj(my_tile)
!
!  Lower and upper bounds for tiled arrays.
!
      LBi=LBOUND(GRID(ng)%h,DIM=1)
      UBi=UBOUND(GRID(ng)%h,DIM=1)
      LBj=LBOUND(GRID(ng)%h,DIM=2)
      UBj=UBOUND(GRID(ng)%h,DIM=2)

# ifdef PROFILE
!
!-----------------------------------------------------------------------
!  Turn on input data time wall clock.
!-----------------------------------------------------------------------
!
      CALL wclock_on (ng, iADM, 3, __LINE__, __FILE__)
# endif
!
!=======================================================================
!  Read in forcing data from FORCING NetCDF file.
!=======================================================================

# ifndef ANA_PSOURCE
!
!-----------------------------------------------------------------------
!  Point Sources/Sinks time dependent data.
!-----------------------------------------------------------------------
!
!  Point Source/Sink vertically integrated mass transport.
!
      IF (LuvSrc(ng).or.LwSrc(ng)) THEN
        CALL get_ngfldr (ng, iADM, idRtra, SSF(ng)%ncid,                &
     &                   1, SSF(ng), update(1),                         &
     &                   1, Nsrc(ng), 1, 2, 1, Nsrc(ng), 1,             &
     &                   SOURCES(ng) % QbarG)
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END IF

#  ifdef SOLVE3D
!
!  Tracer Sources/Sinks.
!
      DO i=1,NT(ng)
        IF (LtracerSrc(i,ng)) THEN
          CALL get_ngfldr (ng, iADM, idRtrc(i), SSF(ng)%ncid,           &
     &                     1, SSF(ng), update(1),                       &
     &                     1, Nsrc(ng), N(ng), 2, 1, Nsrc(ng), N(ng),   &
     &                     SOURCES(ng) % TsrcG(:,:,:,i))
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
      END DO
#  endif
# endif

# if !defined ANA_WINDS    && \
     ((defined BULK_FLUXES && !defined NL_BULK_FLUXES) || \
      defined ECOSIM)
!
!-----------------------------------------------------------------------
!  Surface wind components.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idUair, ncFRCid(idUair,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#  ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#  endif
     &                 FORCES(ng) % UwindG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng , iADM, idVair, ncFRCid(idVair,ng),           &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#  ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#  endif
     &                 FORCES(ng) % VwindG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
# endif

# ifndef FRC_COUPLING
#  if !defined ANA_SMFLUX  && \
      !defined BULK_FLUXES && !defined NL_BULK_FLUXES
!
!-----------------------------------------------------------------------
!  Surface wind stress components.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idUsms, ncFRCid(idUsms,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % umask,                                &
#   endif
     &                 FORCES(ng) % sustrG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idVsms, ncFRCid(idVsms,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#   endif
     &                 FORCES(ng) % svstrG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef NL_BULK_FLUXES
!
!-----------------------------------------------------------------------
!  Surface wind stress components from NLM bulk flux computation.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idUsms, BLK(ng)%ncid,                  &
     &                 1, BLK(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % umask,                                &
#   endif
     &                 FORCES(ng) % sustrG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idVsms, BLK(ng)%ncid,                  &
     &                 1, BLK(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#   endif
     &                 FORCES(ng) % svstrG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif
# endif

# if !defined ANA_PAIR && \
     ((defined BULK_FLUXES && !defined NL_BULK_FLUXES) || \
      defined ECOSIM       || defined ATM_PRESS)
!
!-----------------------------------------------------------------------
!  Surface air pressure.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idPair, ncFRCid(idPair,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#  ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#  endif
     &                 FORCES(ng) % PairG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
# endif

# if !defined ANA_WWAVE && defined WAVE_DATA
!
!-----------------------------------------------------------------------
!  Surface wind induced wave amplitude, direction and period.
!-----------------------------------------------------------------------
!
#  ifdef WAVES_DIR
      CALL get_2dfldr (ng, iADM, idWdir, ncFRCid(idWdir,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % DwaveG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef WAVES_HEIGHT
      CALL get_2dfldr (ng, iADM, idWamp, ncFRCid(idWamp,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % HwaveG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef WAVES_LENGTH
      CALL get_2dfldr (ng, iADM, idWlen, ncFRCid(idWlen,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % LwaveG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef WAVES_TOP_PERIOD
      CALL get_2dfldr (ng, iADM, idWptp, ncFRCid(idWptp,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % Pwave_topG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef WAVES_BOT_PERIOD
      CALL get_2dfldr (ng, iADM, idWpbt, ncFRCid(idWpbt,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % Pwave_botG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if defined WAVES_UB
      CALL get_2dfldr (ng, iADM, idWorb, ncFRCid(idWorb,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % Ub_swanG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if defined TKE_WAVEDISS
      CALL get_2dfldr (ng, iADM, idWdis, ncFRCid(idWdis,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % Wave_dissipG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if defined SVENDSEN_ROLLER
      CALL get_2dfldr (ng, iADM, idWbrk, ncFRCid(idWbrk,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % Wave_breakG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif
# endif

# ifdef SOLVE3D

#  if !defined ANA_CLOUD && defined CLOUDS
!
!-----------------------------------------------------------------------
!  Cloud fraction.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idCfra, ncFRCid(idCfra,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % cloudG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_SRFLUX && defined SHORTWAVE
!
!-----------------------------------------------------------------------
!  Surface solar shortwave radiation.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idSrad, ncFRCid(idSrad,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % srflxG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if (defined BULK_FLUXES && !defined NL_BULK_FLUXES) && \
      !defined LONGWAVE    && !defined LONGWAVE_OUT
!
!-----------------------------------------------------------------------
!  Surface net longwave radiation.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idLrad, ncFRCid(idLrad,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % lrflxG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if (defined BULK_FLUXES && !defined NL_BULK_FLUXES) && \
      defined LONGWAVE_OUT
!
!-----------------------------------------------------------------------
!  Surface downwelling longwave radiation.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idLdwn, ncFRCid(idLdwn,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % lrflxG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_TAIR && \
     ((defined BULK_FLUXES && !defined NL_BULK_FLUXES) || \
      defined ECOSIM       || \
      (defined SHORTWAVE   && defined ANA_SRFLUX && defined ALBEDO_CLOUD))
!
!-----------------------------------------------------------------------
!  Surface air temperature.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idTair, ncFRCid(idTair,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % TairG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_HUMIDITY && \
      ((defined BULK_FLUXES && !defined NL_BULK_FLUXES) || \
       defined ECOSIM)
!
!-----------------------------------------------------------------------
!  Surface air humidity.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idQair, ncFRCid(idQair,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % HairG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_RAIN    && \
      (defined BULK_FLUXES && !defined NL_BULK_FLUXES)
!
!-----------------------------------------------------------------------
!  Rain fall rate.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idrain, ncFRCid(idrain,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % rainG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_STFLUX && !defined BULK_FLUXES
!
!-----------------------------------------------------------------------
!  Surface net heat flux.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idTsur(itemp),                         &
     &                 ncFRCid(idTsur(itemp),ng),                       &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % stflxG(:,:,:,itemp))
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef NL_BULK_FLUXES
!
!-----------------------------------------------------------------------
!  Surface net heat flux from NLM bulk flux computation.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idTsur(itemp), BLK(ng)%ncid,           &
     &                 1, BLK(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % stflxG(:,:,:,itemp))
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_SST && defined QCORRECTION
!
!-----------------------------------------------------------------------
!  Surface net heat flux correction fields: sea surface temperature
!  (SST).
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idSSTc, ncFRCid(idSSTc,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % sstG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  if !defined ANA_DQDSST && defined QCORRECTION
!
!-----------------------------------------------------------------------
!  Surface net heat flux correction fields: heat flux sensitivity to
!  SST (dQdSST).
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, iddQdT, ncFRCid(iddQdT,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % dqdtG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifndef ANA_BTFLUX
!
!-----------------------------------------------------------------------
!  Bottom net heat flux.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idTbot(itemp),                         &
     &                 ncFRCid(idTbot(itemp),ng),                       &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 FORCES(ng) % btflxG(:,:,:,itemp))
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef SALINITY
#   if !(defined ANA_SSFLUX || defined EMINUSP || defined SRELAXATION)
!
!-----------------------------------------------------------------------
!  Surface net freshwater flux: E-P.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idsfwf, ncFRCid(idsfwf,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 FORCES(ng) % stflxG(:,:,:,isalt))
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif

#   if defined EMINUSP && defined NL_BULK_FLUXES
!
!-----------------------------------------------------------------------
!  Surface net freshwater flux (E-P) from NLM bulk flux computation.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idEmPf, BLK(ng)%ncid,                  &
     &                 1, BLK(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 FORCES(ng) % stflxG(:,:,:,isalt))
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif

#   if !defined ANA_SSS && (defined SCORRECTION || defined SRELAXATION)
!
!-----------------------------------------------------------------------
!  Surface net freshwater flux correction field: sea surface salinity.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idSSSc, ncFRCid(idSSSc,ng),            &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 FORCES(ng) % sssG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif

#   ifndef ANA_BSFLUX
!
!-----------------------------------------------------------------------
!  Bottom net freshwater flux.
!-----------------------------------------------------------------------
!
      CALL get_2dfldr (ng, iADM, idTbot(isalt),                         &
     &                 ncFRCid(idTbot(isalt),ng),                       &
     &                 nFfiles(ng), FRC(1,ng), update(1),               &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 FORCES(ng) % btflxG(:,:,:,isalt))
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif
#  endif

#  if defined BIOLOGY || defined SEDIMENT || defined T_PASSIVE
#   ifndef ANA_SPFLUX
!
!-----------------------------------------------------------------------
!  Passive tracers surface fluxes.
!-----------------------------------------------------------------------
!
      DO i=NAT+1,NT(ng)
        CALL get_2dfldr (ng, iADM, idTsur(i), ncFRCid(idTsur(i),ng),    &
     &                   nFfiles(ng), FRC(1,ng), update(1),             &
     &                   LBi, UBi, LBj, UBj, 2, 1,                      &
#    ifdef MASKING
     &                   GRID(ng) % rmask,                              &
#    endif
     &                   FORCES(ng) % stflxG(:,:,:,i))
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END DO
#   endif

#   ifndef ANA_BPFLUX
!
!-----------------------------------------------------------------------
!  Passive tracers bottom fluxes.
!-----------------------------------------------------------------------
!
      DO i=NAT+1,NT(ng)
        CALL get_2dfldr (ng, iADM, idTbot(i), ncFRCid(idTbot(i),ng),    &
     &                   nFfiles(ng), FRC(1,ng), update(1),             &
     &                   LBi, UBi, LBj, UBj, 2, 1,                      &
#    ifdef MASKING
     &                   GRID(ng) % rmask,                              &
#    endif
     &                   FORCES(ng) % btflxG(:,:,:,i))
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END DO
#   endif
#  endif
# endif
!
!=======================================================================
!  Read in open boundary conditions from BOUNDARY NetCDF file.
!=======================================================================

# ifndef ANA_FSOBC
!
      IF (LprocessOBC(ng)) THEN
        IF (ad_LBC(iwest,isFsur,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idZbry(iwest), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, 1, 2, 0, Mm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % zetaG_west)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(ieast,isFsur,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idZbry(ieast), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, 1, 2, 0, Mm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % zetaG_east)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(isouth,isFsur,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idZbry(isouth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, 1, 2, 0, Lm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % zetaG_south)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(inorth,isFsur,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idZbry(inorth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, 1, 2, 0, Lm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % zetaG_north)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
      END IF
# endif

# ifndef ANA_M2OBC
!
      IF (LprocessOBC(ng)) THEN
        IF (ad_LBC(iwest,isUbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU2bc(iwest), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, 1, 2, 0, Mm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % ubarG_west)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(iwest,isVbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV2bc(iwest), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, 1, 2, 1, Mm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % vbarG_west)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(ieast,isUbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU2bc(ieast), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, 1, 2, 0, Mm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % ubarG_east)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(ieast,isVbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV2bc(ieast), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, 1, 2, 1, Mm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % vbarG_east)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(isouth,isUbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU2bc(isouth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, 1, 2, 1, Lm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % ubarG_south)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(isouth,isVbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV2bc(isouth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, 1, 2, 0, Lm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % vbarG_south)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(inorth,isUbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU2bc(inorth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, 1, 2, 1, Lm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % ubarG_north)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(inorth,isVbar,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV2bc(inorth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, 1, 2, 0, Lm(ng)+1, 1,              &
     &                     BOUNDARY(ng) % vbarG_north)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
      END IF
# endif

# ifdef SOLVE3D
#  ifndef ANA_M3OBC
!
      IF (LprocessOBC(ng)) THEN
        IF (ad_LBC(iwest,isUvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU3bc(iwest), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, N(ng), 2, 0, Mm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % uG_west)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(iwest,isVvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV3bc(iwest), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, N(ng), 2, 1, Mm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % vG_west)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(ieast,isUvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU3bc(ieast), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, N(ng), 2, 0, Mm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % uG_east)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(ieast,isVvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV3bc(ieast), BRY(ng)%ncid,       &
     &                     1, BRY(ng), update(1),                       &
     &                     JLB, JUB, N(ng), 2, 1, Mm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % vG_east)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(isouth,isUvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU3bc(isouth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, N(ng), 2, 1, Lm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % uG_south)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(isouth,isVvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV3bc(isouth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, N(ng), 2, 0, Lm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % vG_south)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(inorth,isUvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idU3bc(inorth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, N(ng), 2, 1, Lm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % uG_north)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

        IF (ad_LBC(inorth,isVvel,ng)%acquire) THEN
          CALL get_ngfldr (ng, iADM, idV3bc(inorth), BRY(ng)%ncid,      &
     &                     1, BRY(ng), update(1),                       &
     &                     ILB, IUB, N(ng), 2, 0, Lm(ng)+1, N(ng),      &
     &                     BOUNDARY(ng) % vG_north)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
      END IF
#  endif

#  ifndef ANA_TOBC
!
      IF (LprocessOBC(ng)) THEN
        DO i=1,NT(ng)
          IF (ad_LBC(iwest,isTvar(i),ng)%acquire) THEN
            CALL get_ngfldr (ng, iADM, idTbry(iwest,i), BRY(ng)%ncid,   &
     &                       1, BRY(ng), update(1),                     &
     &                       JLB, JUB, N(ng), 2, 0, Mm(ng)+1, N(ng),    &
     &                       BOUNDARY(ng) % tG_west(:,:,:,i))
            IF (FoundError(exit_flag, NoError, __LINE__,                &
     &                     __FILE__)) RETURN
          END IF
        END DO

        DO i=1,NT(ng)
          IF (ad_LBC(ieast,isTvar(i),ng)%acquire) THEN
            CALL get_ngfldr (ng, iADM, idTbry(ieast,i), BRY(ng)%ncid,   &
     &                       1, BRY(ng), update(1),                     &
     &                       JLB, JUB, N(ng), 2, 0, Mm(ng)+1, N(ng),    &
     &                       BOUNDARY(ng) % tG_east(:,:,:,i))
            IF (FoundError(exit_flag, NoError, __LINE__,                &
     &                     __FILE__)) RETURN
          END IF
        END DO

        DO i=1,NT(ng)
          IF (ad_LBC(isouth,isTvar(i),ng)%acquire) THEN
            CALL get_ngfldr (ng, iADM, idTbry(isouth,i), BRY(ng)%ncid,  &
     &                       1, BRY(ng), update(1),                     &
     &                       ILB, IUB, N(ng), 2, 0, Lm(ng)+1, N(ng),    &
     &                       BOUNDARY(ng) % tG_south(:,:,:,i))
            IF (FoundError(exit_flag, NoError, __LINE__,                &
     &                     __FILE__)) RETURN
          END IF
        END DO

        DO i=1,NT(ng)
          IF (ad_LBC(inorth,isTvar(i),ng)%acquire) THEN
            CALL get_ngfldr (ng, iADM, idTbry(inorth,i), BRY(ng)%ncid,  &
     &                       1, BRY(ng), update(1),                     &
     &                       ILB, IUB, N(ng), 2, 0, Lm(ng)+1, N(ng),    &
     &                       BOUNDARY(ng) % tG_north(:,:,:,i))
            IF (FoundError(exit_flag, NoError, __LINE__,                &
     &                     __FILE__)) RETURN
          END IF
        END DO
      END IF
#  endif
# endif
!
!=======================================================================
!  Read in data from Climatology NetCDF file.
!=======================================================================

# ifndef ANA_SSH
!
!  Free-surface.
!
      IF (LsshCLM(ng)) THEN
        CALL get_2dfldr (ng, iADM, idSSHc, CLM(ng)%ncid,                &
     &                   1, CLM(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 2, 1,                      &
#  ifdef MASKING
     &                   GRID(ng) % rmask,                              &
#  endif
     &                   CLIMA(ng) % sshG)
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END IF
# endif
# ifndef ANA_M2CLIMA
!
!  2D momentum.
!
      IF (Lm2CLM(ng)) THEN
        CALL get_2dfldr (ng, iADM, idUbcl, CLM(ng)%ncid,                &
     &                   1, CLM(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 2, 1,                      &
#  ifdef MASKING
     &                   GRID(ng) % umask,                              &
#  endif
     &                   CLIMA(ng) % ubarclmG)
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
!
        CALL get_2dfldr (ng, iADM, idVbcl, CLM(ng)%ncid,                &
     &                   1, CLM(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 2, 1,                      &
#  ifdef MASKING
     &                   GRID(ng) % vmask,                              &
#  endif
     &                   CLIMA(ng) % vbarclmG)
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END IF
# endif
# ifdef SOLVE3D
#  ifndef ANA_M3CLIMA
!
!  3D momentum.
!
      IF (Lm3CLM(ng)) THEN
        CALL get_3dfldr (ng, iADM, idUclm, CLM(ng)%ncid,                &
     &                   1, CLM(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,            &
#   ifdef MASKING
     &                   GRID(ng) % umask,                              &
#   endif
     &                   CLIMA(ng) % uclmG)
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
!
        CALL get_3dfldr (ng, iADM, idVclm, CLM(ng)%ncid,                &
     &                   1, CLM(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,            &
#   ifdef MASKING
     &                   GRID(ng) % vmask,                              &
#   endif
     &                   CLIMA(ng) % vclmG)
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END IF
#  endif
#  ifndef ANA_TCLIMA
!
!  Tracers.
!
      ic=0
      DO i=1,NT(ng)
        IF (LtracerCLM(i,ng)) THEN
          ic=ic+1
          CALL get_3dfldr (ng, iADM, idTclm(i), CLM(ng)%ncid,           &
     &                     1, CLM(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,          &
#   ifdef MASKING
     &                     GRID(ng) % rmask,                            &
#   endif
     &                     CLIMA(ng) % tclmG(:,:,:,:,ic))
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
      END DO
#  endif
# endif

# ifdef FORWARD_READ
!
!-----------------------------------------------------------------------
!  Read in forward state solution.
!-----------------------------------------------------------------------
!
!  Read in free-surface.
!
      CALL get_2dfldr (ng, iADM, idFsur, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#  ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#  endif
     &                 OCEAN(ng) % zetaG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
!
!  Read 2D momentum.
!
      CALL get_2dfldr (ng, iADM, idUbar, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#  ifdef MASKING
     &                 GRID(ng) % umask,                                &
#  endif
     &                 OCEAN(ng) % ubarG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idVbar, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#  ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#  endif
     &                 OCEAN(ng) % vbarG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

#  ifdef FORWARD_RHS
!
!  Read in variables associated with 2D right-hand-side terms.
!
      CALL get_2dfldr (ng, iADM, idRzet, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#   endif
     &                 OCEAN(ng) % rzetaG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idRu2d, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % umask,                                &
#   endif
     &                 OCEAN(ng) % rubarG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idRv2d, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#   endif
     &                 OCEAN(ng) % rvbarG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#  endif

#  ifdef SOLVE3D
!
!  Read in variables associated with time-averaged 2D momentum terms.
!
      CALL get_2dfldr (ng, iADM, idUfx1, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % umask,                                &
#   endif
     &                 COUPLING(ng) % DU_avg1G)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idUfx2, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % umask,                                &
#   endif
     &                 COUPLING(ng) % DU_avg2G)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idVfx1, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#   endif
     &                 COUPLING(ng) % DV_avg1G)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idVfx2, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#   ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#   endif
     &                 COUPLING(ng) % DV_avg2G)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
!
!  Read in 3D momentum.
!
      CALL get_3dfldr (ng, iADM, idUvel, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,              &
#   ifdef MASKING
     &                 GRID(ng) % umask,                                &
#   endif
     &                 OCEAN(ng) % uG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_3dfldr (ng, iADM, idVvel, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,              &
#   ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#   endif
     &                 OCEAN(ng) % vG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

#   ifdef FORWARD_RHS
!
!  Read in variables associated with 3D momentum right-hand-side terms.
!
      CALL get_2dfldr (ng, iADM, idRuct, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % umask,                                &
#    endif
     &                 COUPLING(ng) % rufrcG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_2dfldr (ng, iADM, idRvct, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#    endif
     &                 COUPLING(ng) % rvfrcG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_3dfldr (ng, iADM, idRu3d, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 1, N(ng),  2, 1,             &
#    ifdef MASKING
     &                 GRID(ng) % umask,                                &
#    endif
     &                 OCEAN(ng) % ruG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

      CALL get_3dfldr (ng, iADM, idRv3d, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,              &
#    ifdef MASKING
     &                 GRID(ng) % vmask,                                &
#    endif
     &                 OCEAN(ng) % rvG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif
!
!  Read in 3D tracers.
!
      DO i=1,NT(ng)
        CALL get_3dfldr (ng, iADM, idTvar(i), FWD(ng)%ncid,             &
     &                   1, FWD(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,            &
#   ifdef MASKING
     &                   GRID(ng) % rmask,                              &
#   endif
     &                   OCEAN(ng) % tG(:,:,:,:,i))
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END DO

#   ifdef FORWARD_MIXING
!
!  Read in vertical mixing variables.
!
      DO i=1,NAT
        scale=Fscale(idDiff(i),ng)                    ! save and rescale
        Fscale(idDiff(i),ng)=ad_Akt_fac(i,ng)
        CALL get_3dfldr (ng, iADM, idDiff(i), FWD(ng)%ncid,             &
     &                   1, FWD(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,            &
#    ifdef MASKING
     &                   GRID(ng) % rmask,                              &
#    endif
     &                   MIXING(ng) % AktG(:,:,:,:,i))
        Fscale(idDiff(i),ng)=scale
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END DO

      scale=Fscale(idVvis,ng)                         ! save and rescale
      Fscale(idVvis,ng)=ad_Akv_fac(ng)
      CALL get_3dfldr (ng, iADM, idVvis, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,              &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % AkvG)
      Fscale(idVvis,ng)=scale
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif

#   if defined MY25_MIXING_NOT_YET || defined GLS_MIXING_NOT_YET
!
!  Read in turbulent kinetic energy.
!
      CALL get_3dfldr (ng, iADM, idMtke, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,              &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % tkeG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
!
!  Read in turbulent kinetic energy times length scale.
!
      CALL get_3dfldr (ng, iADM, idMtls, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,              &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % glsG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
!
!  Read in vertical mixing length scale.
!
      CALL get_3dfldr (ng, iADM, idVmLS, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,              &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % LscaleG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
!
!  Read in vertical mixing coefficient for turbulent kinetic energy.
!
      CALL get_3dfldr (ng, iADM, idVmKK, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,              &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % AkkG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN

#    ifdef GLS_MIXING_NOT_YET
!
!  Read in vertical mixing coefficient for turbulent length scale.
!
      CALL get_3dfldr (ng, iADM, idVmKP, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,              &
#     ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#     endif
     &                 MIXING(ng) % AkpG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#    endif
#   endif

#   ifdef LMD_MIXING_NOT_YET
!
!  Read in depth of surface oceanic boundary layer.
!
      CALL get_2dfldr (ng, iADM, idHsbl, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % hsblG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif

#   ifdef LMD_BKPP_NOT_YET
!
!  Read in depth of bottom oceanic boundary layer.
!
      CALL get_2dfldr (ng, iADM, idHbbl, FWD(ng)%ncid,                  &
     &                 1, FWD(ng), update(1),                           &
     &                 LBi, UBi, LBj, UBj, 2, 1,                        &
#    ifdef MASKING
     &                 GRID(ng) % rmask,                                &
#    endif
     &                 MIXING(ng) % hbblG)
      IF (FoundError(exit_flag, NoError, __LINE__,                      &
     &               __FILE__)) RETURN
#   endif

#   ifdef LMD_NONLOCAL_NOT_YET
!
!  Read in boundary layer nonlocal transport.
!
      DO i=1,NAT
        CALL get_3dfldr (ng, iADM, idGhat(i), FWD(ng)%ncid,             &
     &                   1, FWD(ng), update(1),                         &
     &                   LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,            &
#    ifdef MASKING
     &                   GRID(ng) % rmask,                              &
#    endif
     &                   MIXING(ng) % ghatsG(:,:,:,i))
        IF (FoundError(exit_flag, NoError, __LINE__,                    &
     &                 __FILE__)) RETURN
      END DO
#   endif
#  endif
# endif

# if defined AD_SENSITIVITY   || defined IS4DVAR_SENSITIVITY || \
     defined OPT_OBSERVATIONS || defined SENSITIVITY_4DVAR   || \
     defined SO_SEMI
!
!-----------------------------------------------------------------------
!  Read in adjoint sensitivity functional.
!-----------------------------------------------------------------------
!
!  Read in free-surface.
!
#  ifdef SENSITIVITY_4DVAR
      IF (LsenPSAS(ng)) THEN
#  endif
        IF (SCALARS(ng)%Lstate(isFsur)) THEN
          CALL get_2dfldr (ng, iADM, idZads, ADS(ng)%ncid,              &
     &                     1, ADS(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 2, 1,                    &
#  ifdef MASKING
     &                     GRID(ng) % rmask,                            &
#  endif
     &                     CLIMA(ng) % zeta_adsG)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
!
!  Read 2D momentum.
!
        IF (SCALARS(ng)%Lstate(isUbar)) THEN
          CALL get_2dfldr (ng, iADM, idUbas, ADS(ng)%ncid,              &
     &                     1, ADS(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 2, 1,                    &
#  ifdef MASKING
     &                     GRID(ng) % umask,                            &
#  endif
     &                     CLIMA(ng) % ubar_adsG)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
!
        IF (SCALARS(ng)%Lstate(isVbar)) THEN
          CALL get_2dfldr (ng, iADM, idVbas, ADS(ng)%ncid,              &
     &                     1, ADS(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 2, 1,                    &
#  ifdef MASKING
     &                     GRID(ng) % vmask,                            &
#  endif
     &                     CLIMA(ng) % vbar_adsG)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF

#  ifdef SOLVE3D
!
!  Read in 3D momentum.
!
        IF (SCALARS(ng)%Lstate(isUvel)) THEN
          CALL get_3dfldr (ng, iADM, idUads, ADS(ng)%ncid,              &
     &                     1, ADS(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,          &
#   ifdef MASKING
     &                     GRID(ng) % umask,                            &
#   endif
     &                     CLIMA(ng) % u_adsG)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
!
        IF (SCALARS(ng)%Lstate(isVvel)) THEN
          CALL get_3dfldr (ng, iADM, idVads, ADS(ng)%ncid,              &
     &                     1, ADS(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,          &
#   ifdef MASKING
     &                     GRID(ng) % vmask,                            &
#   endif
     &                     CLIMA(ng) % v_adsG)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
!
        IF (SCALARS(ng)%Lstate(isWvel)) THEN
          CALL get_3dfldr (ng, iADM, idWads, ADS(ng)%ncid,              &
     &                     1, ADS(ng), update(1),                       &
     &                     LBi, UBi, LBj, UBj, 0, N(ng), 2, 1,          &
#     ifdef MASKING
     &                     GRID(ng) % rmask,                            &
#     endif
     &                     CLIMA(ng) % wvel_adsG)
          IF (FoundError(exit_flag, NoError, __LINE__,                  &
     &                   __FILE__)) RETURN
        END IF
!
!  Read in 3D tracers.
!
        DO i=1,NT(ng)
          IF (SCALARS(ng)%Lstate(isTvar(i))) THEN
            CALL get_3dfldr (ng, iADM, idTads(i), ADS(ng)%ncid,         &
     &                       1, ADS(ng), update(1),                     &
     &                       LBi, UBi, LBj, UBj, 1, N(ng), 2, 1,        &
#   ifdef MASKING
     &                       GRID(ng) % rmask,                          &
#   endif
     &                       CLIMA(ng) % t_adsG(:,:,:,:,i))
            IF (FoundError(exit_flag, NoError, __LINE__,                &
     &                     __FILE__)) RETURN
          END IF
        END DO
#  endif
#  ifdef SENSITIVITY_4DVAR
      END IF
#  endif
# endif

# ifdef PROFILE
!
!-----------------------------------------------------------------------
!  Turn off input data time wall clock.
!-----------------------------------------------------------------------
!
      CALL wclock_off (ng, iADM, 3, __LINE__, __FILE__)
# endif
      RETURN
      END SUBROUTINE ad_get_data
#else
      SUBROUTINE ad_get_data
      RETURN
      END SUBROUTINE ad_get_data
#endif
